202 research outputs found
Coherent Radiation in Gamma-Ray Bursts and Relativistic Collisionless Shocks
We suggest that coherent radiation may occur in relativistic collisionless
shocks via two-stream Weibel instabilities. The coherence amplifies the
radiation power by many orders [ in Gamma-Ray Bursts (GRBs)] and
particles cool very fast before being randomized. We imply (1) GRBs accompany
strong infrared emission, (2) protons efficiently transfer energy to electrons
and (3) prompt GRBs might be the upscattered coherent radiation.Comment: 6 pages, accepted for publication in Progress of Theoretical Physic
Cosmic Dispersion Measure from Gamma-Ray Burst Afterglows: Probing the Reionization History and the Burst Environment
We show a possible way to measure the column density of free electrons along
the light path, the so-called Dispersion Measure (DM), from the early
radio afterglows of the gamma-ray bursts. We find that the proposed Square
Kilometer Array can detect bright radio afterglows around the time s to measure the intergalactic DM (\simg 6000
pc cm at redshift ) up to , from which we can determine
the reionization history of the universe and identify the missing warm-hot
baryons. At low , DM in the host galaxy may reach pc cm
depending on the burst environment, which may be probed by the current
detectors. Free-free absorption and diffractive scattering may also affect the
radio emission in a high density.Comment: 4 pages, 3 figures, emulateapj.cls used, accepted for publication in
ApJ
Can an Off-axis Gamma-Ray Burst Jet in GW170817 Explain All the Electromagnetic Counterparts?
Gravitational waves from a merger of two neutron stars (NSs) were discovered
for the first time in GW170817, together with diverse electromagnetic (EM)
counterparts. To make constraints on a relativistic jet from the NS merger, we
calculate the EM signals in (1) the short gamma-ray burst sGRB 170817A from an
off-axis jet, (2) the optical-infrared macronova (or kilonova), especially the
blue macronova, from a jet-powered cocoon, and (3) the X-ray and radio
afterglows from the interaction between the jet and interstellar medium. We
find that a typical sGRB jet is consistent with these observations, and there
is a parameter space to explain all the observations in a unified fashion with
an isotropic energy - erg, opening angle , and viewing angle . The off-axis emission is less
de-beamed than the point-source case because the viewing angle is comparable to
the opening angle. We also analytically show that the jet energy accelerates a
fair fraction of the merger ejecta to a sub-relativistic velocity -c as a cocoon in a wide parameter range. The ambient density might be
low - cm, which can be tested by future
observations of radio flares and X-ray remnants.Comment: 25 pages, 6 figures, accepted for publication in PTE
Can Gamma-Ray Burst Jets Break Out the First Stars?
We show that a relativistic gamma-ray burst (GRB) jet can potentially pierce
the envelope of very massive first generation star (Population III; Pop III) by
using the stellar density profile to estimate both the jet luminosity (via
accretion) and its penetrability. The jet breakout is possible even if the Pop
III star has a supergiant hydrogen envelope without mass loss, thanks to the
long-lived powerful accretion of the envelope itself. While the Pop III GRB is
estimated to be energetic, E_{gamma,iso} ~ 10^{55} erg, the supergiant envelope
hides the initial bright phase into the cocoon component, leading to a GRB with
a long duration ~ 1000(1+z) sec and an ordinary isotropic luminosity ~ 10^{52}
erg s^{-1} (~ 10^{-9} erg cm^{-2} s^{-1} at redshift z ~ 20). The
neutrino-annihilation is not effective for Pop III GRBs because of a low
central temperature, while the magnetic mechanism is viable. We also derive
analytic estimates of the breakout conditions, which are applicable to various
progenitor models. The GRB luminosity and duration are found to be very
sensitive to the core and envelope mass, providing possible probes of the first
luminous objects at the end of the high redshift dark ages.Comment: 7 pages, 2 figures; accepted for publication in Ap
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